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Journal Neurocomputers №8 for 2015 г.
Article in number:
Тhе model reflecting some systemic aspects of brain functioning. Role of conscious and unconscious intellectual processes for complex tasks solutions
Authors:
Е.А. Umriykhin - Dr.Sc. (Biol.), Ph.D. (Eng.), Corresponding Member of the Russian Academy Science, Professor, Chief of Neural Cibernetic Laboratory, Р.К. Anokhin Research Institute of Normal Physiology (Moscow). E-mail: eaumin@mail.ru
Abstract:
The cybernetic model describing the participation if intuition in solutions of complex tasks, that can be found in scientific and practical human activity. Тhis model is based on functional systems theory and reflects the logical informational correlations of particular mechanisms, that determine human mental activity, including such рhеnоmеnа as consciousness, biographic memory, the allocation of self in psychics, automation of complex skills and intuitive unconscious learning. This model also allows to con-cretize the conditions and preliminary operations that promote the implication of intuitive ways for such tasks solving. In the experimental studies of intuitive unconscious human learning the processes as the work of subsystems A and B were carried out by us, starting with the 1966-1970 period. They published in the number of papers and in detail in the monograph Y.I. Alexandrov, A.V. Bruschlinsky, K.V. Sudakov and E.A. Umryukhin «System aspects of mental activity.» A certain similarity to our model of human mental activity are some of the models were created by different authors in recent years abroad. In one of the most developed models the functions similar to the subsystem B were described. Abroad only now it became more active, the study of learning and memory are realized in the human unconscious mental health. This work was financially supported by RFH in grant № 15-03-00519а «Post-non-classic paradigm of artificial intellect».
Pages: 8-14
References

 

  1. Adamar ZH. Issledovanie psikhologii processa izobretenija v oblasti matematiki. M. 1970.
  2. Anokhin P.K. Izbrannye trudy. Kibernetika funkcionalnykh sistem. M.: Medicina. 1998.
  3. Ivanickijj A.M.Fiziologija mozga o proiskhozhdenii subektivnogo mira cheloveka // ZHVND. 1999. T. 49. Vyp. 5. S. 707-614.
  4. Sudakov K.V.Informacionnyjj fenomen zhiznedejatelnosti. M. 1999.
  5. Sudakov K.V., Umrjukhin E.A.Individualnaja diagnostika sistemnykh mekhanizmov psikhicheskojj dejatelnosti cheloveka s pomoshhju kompjuternojj modeli «Detektor intellekta» // Psikhologicheskijj zhurnal. 2002. T. 2. № 2. S. 79-87.
  6. Umrjukhin E.A. Ierarkhija rezultatov kak osnova mnogourovnevojj funkcionalnojj sistemy // Sistemnaja organizacija fiziologicheskikh funkcijj. M.: Medicina. 1969. S. 211-218.
  7. Umrjukhin E.A.Informacionnaja model sistemnojj organizacii dejatelnosti mozga // Mozg: Teoreticheskie i klinicheskie aspekty. M.: Medicina. 2002. Gl. 11.
  8. Anderson J.R.The architecture of cognition. Harv. Univ. Press, Cambridge MA.1983.
  9. Cleeretans A., Destrebecgz A., Vouer M.Implicit earning: news from the front //Trends in cognitive sciences. 1998. V. 2.  № 10. R. 406-416.
  10. Clegg V.A., DiGirolato G.J., Keele S.W. Sequence learning // Trends incognitive sciences. 1998. V. 2. № 8.
  11. Felletan D.Y., van Essen D.C. Distributed hierarchical processing in the primate cerebral cortex // Cerebral Cortex. 1991. № 1. R. 1-47.
  12. Gazzaniga M.S., LeDoux J.E.The integrated mind. N.Y. - London: Plenum Press. 1978.
  13. Janet R. L\'automatisme psychologique. Paris. 1889. (ZHaneP. Psikhicheskijjavtomatizm. M.: Nachalo. 1913.)
  14. Kihlstrot J.F.The cognitive unconscious // Science.1987. V. 237. R. 1445-1451.
  15. Milner A.D. Streams and consciousness: visual awareness and the brain // Trends in cognitive sciences, 1998. V. 2. № 1. R. 25-30.
  16. Scannell J.W., Vlaketore S., Young M.R.Analysis of connectivity in the cat cerebral cortex // J. Neuroscience. 1995.  № 15(2). R. 1463-83.
  17. Umrjukhin E.A. Problemy modelirovanija funkcijj mozga (nejjrokiberneticheskijj podkhod) // Nejjrokompjutery: razrabotka, primenenie. 2013. № 8. S. 54-59.
  18. Umrjukhin E.A. Model sistemnojj organizacii raboty mozga cheloveka. Saarbrücken: LAP LAMBERT Academic Publishing (Germany). 2014, 1. Aufl.